JPH0942576A - Pressure oil pulsation reducer - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To provide a pressure oil pulsation reducing device capable of reducing the pulsation of pressure oil in a flow path of pressure oil for both frequencies of odd multiples and even multiples of a predetermined frequency. . In a pressure oil pulsation reducing device for reducing pulsation of pressure oil generated by a hydraulic pump 1 and propagating in a main pipe 2, a sub side branch 4 is branched to a main side branch 3 which is branched and connected to the main pipe 2. Connected to each other, the pulsation of the pressure oil propagating in the main pipe 2 is propagated to the passage 3b of the main side branch 3, and the pulsation of the pressure oil propagated to this passage 3b is partially reflected on the reflection surface of the main side branch. 3a, and at the same time, is partially propagated to the passage 4b of the sub side branch via the upstream side of the passage 3b of the main side branch and reflected by the reflection surface 4a thereof.
By reducing the pulsation of the pressure oil reflected in the main pipe 2 with the pulsation of the pressure oil propagating to the main pipe 2, it is possible to reduce the pulsation of the pressure oil in both the odd multiple and the even multiple of the predetermined frequency. I was able to do it.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pressure oil pulsation reducing device for reducing pulsation of pressure oil generated by a hydraulic pump and propagating in a flow path of pressure oil at a side branch, and more particularly to a hydraulic excavator and a hydraulic crane. It is useful as a hydraulic working machine for construction work.

[0002]

2. Description of the Related Art In a hydraulic drive circuit composed of a hydraulic pump, a hydraulic actuator, etc., the hydraulic pump causes pressure fluctuations in the pressure oil to be discharged in the course of repeated discharge and suction of the oil. Pulsation of pressure oil occurs in the flow path. The pulsation of the pressure oil is transmitted to various hydraulic devices connected to the pressure oil pipe through the pipe and causes noise, and in some cases causes resonance and damages the pipe and the hydraulic device. Therefore, it is necessary to reduce it as much as possible. Conventionally, as one of the means for reducing the pulsation of the pressure oil, for example, a side-branch type pressure oil pulsation reducing device as described in the section "(Prior Art)" of Japanese Utility Model Laid-Open No. 62-97391. Was used. Therefore, the basic technical contents of such a side-branch type pressure oil pulsation reducing device will be described with reference to FIGS. 6 and 7. FIG. 6 is a sectional view of a conventional side-branch type pressure oil pulsation reducing device, and FIG. 7 is a characteristic diagram for explaining a pulsation reducing effect of a conventional side-branch type pressure oil pulsation reducing device. The side-branch type pressure oil pulsation reducing device shown in FIG. 6 is substantially the same as the device described in the section of (Prior Art) of the above publication, but is different from the embodiment of the present invention described later. In order to clarify the correspondence relationship of the above, some supplementary modifications are added to the device described in that publication.

In FIG. 6, 1 is a hydraulic pump such as an oblique shaft type plunger pump or a swash plate type plunger pump which is a source of hydraulic pressure, 2 is a discharge side of the hydraulic pump 1, and the hydraulic oil is a hydraulic drive circuit. Main pipes that form the main flow path for leading to various places in the tank, 5 are tanks from which the pressure oil supplied to the various places via the main pipes 2 is discharged, and 6 are branched and connected to the main pipes 2. It is a bottomed side branch having a function of reducing the pulsation of the pressure oil in the pipe 2. The pressure oil of the hydraulic pump 1 supplied to the main pipe 2 is guided to various hydraulic devices such as actuators through the branch flow passages, but in the figure, such hydraulic flow passages and hydraulic devices such as actuators are not shown. Side branch 6 has a passage 6b
Is provided from the branch point with the main pipe 2 to the passage 6b.
The reflection surface 6a is formed by closing the end on the opposite side of the branch point so that the pulsation of the pressure oil in the main pipe 2 that has entered can be reflected and returned.

In the conventional side-branch type pressure oil pulsation reducing device, since the side branch 6 having such a structure is branched and provided in the main pipe 2, the pulsation of the pressure oil discharged from the hydraulic pump 1 is provided. Propagates in the main pipe 2 and also in the passage 6b in the side branch 6,
The pulsation of the pressure oil that has propagated to the passage 6b is reflected by the reflection surface 6a and returns to the main pipe 2 through the passage 6b again. Therefore, if a pulsating wave having a specific frequency to be reduced is predetermined and the length of the passage 6b of the side branch 6 is appropriately adjusted according to the frequency, the side branch 6 reciprocates and returns to the main pipe 2. Since the pulsating wave of the pressure oil can be interfered with the pulsating wave of the main pipe 2 in such a relationship that the peaks and troughs of the waves collide with each other, a specific frequency of the pulsating wave of the pressure oil propagating in the main pipe 2 can be obtained. The pulsation of can be reduced intensively. The pulsation of the pressure oil discharged from the hydraulic pump 1 consists of a fundamental frequency and a harmonic having a frequency that is an integral multiple of the fundamental frequency. The sonic velocity of the pressure oil is V and the length of the passage 6b of the side branch 6 is When L is set, the pulsation reduction center frequency reduced by the side branch 6 is an odd multiple of the fundamental frequency f calculated by the following equation (1).

F = V / 4L (1) Therefore, in the conventional side-branch type pressure oil pulsation reducing device, the pulsation of the pressure oil of a specific frequency component is reduced intensively. However, it is not possible to reduce the pulsation of the pressure oil that is an even multiple of the fundamental frequency f. In the equation (1), the pipe diameter of the main pipe 2 is considered to be negligibly small compared to the length of the side branch passage 6b. The pulsation reducing effect exhibited by the conventional pressure oil pulsation reducing device, that is, the transmission loss is shown in a diagram in FIG. In the diagram of FIG. 7, the pulsation of the frequency at the apex point is the pulsation that is most greatly reduced by interfering with the pulsation of the pressure oil reflected and returned by the side branch 6, and the pulsation corresponding to the pulsation reduction center frequency. Is. The pulsation of the pressure oil reflected and returned by the side branch 6 not only interferes with the pulsation of the pressure oil having the pulsation reduction center frequency but also interferes with the pulsation of the pressure oil having the frequency in the peripheral region to reduce the pulsation to some extent. Therefore, the diagram of FIG. 7 draws a bilaterally symmetrical mountain-like curve. Although FIG. 7 only shows a diagram of the region centered on the fundamental frequency f in the equation (1), such a diagram actually appears in other frequency regions of odd multiples of the fundamental frequency f. Becomes

[0006]

As is clear from the above description, in the conventional side-branch type pressure oil pulsation reducing device, the pulsation of the pressure oil propagating in the flow path of the pressure oil is expressed by the formula (1). It is possible to reduce only the pulsating component of the pressure oil having a frequency that is an odd multiple of the fundamental frequency f and the frequency of the peripheral region obtained by The pulsating component could not be reduced. Therefore, the conventional pressure oil pulsation reducing device cannot effectively reduce the pressure oil pulsation due to the hydraulic pump propagating in the pressure oil passage.

The present invention is intended to solve such problems found in the prior art, and an object thereof is to make the pulsation of the pressure oil by the hydraulic pump propagating in the flow path of the pressure oil an odd multiple of a predetermined fundamental frequency. It is an object of the present invention to provide a side-branch type pressure oil pulsation reducer capable of reducing not only the frequency of the above-mentioned frequency but also the frequency of an even multiple thereof.

[0008]

The object of the present invention is to provide a "pressure oil pulsation reducing device for reducing pulsation of pressure oil generated by a hydraulic pump and propagating in the pressure oil flow path. The sub-side branch is provided by branching to the main side branch provided by branching, the pulsation of the pressure oil propagating in the flow path of the pressure oil is propagated in the main side branch, and is propagated in the main side branch. The pulsation of the pressure oil is partly reflected by the reflecting surface of the main side branch, and partly propagated into the sub side branch via the upstream side of the main side branch and reflected by the reflecting surface. By interfering the pulsation of the pressure oil reflected by each reflecting surface of the side branch and the sub-side branch with the pulsation of the pressure oil propagating in the flow path of the pressure oil, an odd multiple of the predetermined frequency in the flow path of the pressure oil and Both times even number times Is accomplished by a hydraulic fluid pulsation reducing device as described in claim 1., wherein the "possible to be able to reduce the pulsations in the number of pressure oil.

[0009]

Since the present invention has such a structure,
The pulsation of the pressure oil generated by the hydraulic pump and propagating in the flow path of the pressure oil propagates in the main side branch, and the pulsation of the pressure oil propagated in this main side branch is partly reflected by the main side branch. It is reflected by the surface and returns to the branch point with the flow path of pressure oil. In addition, the other part propagates into the sub side branch via the upstream side of the main side branch and is reflected by the reflecting surface of the sub side branch, and similarly, at the branch point with the flow path of the pressure oil. Come back. Then, the pulsation of each pressure oil that has reflected and returned to the branch point with the flow path of the pressure oil interferes with the pulsation of the pressure oil propagating in the flow path of the pressure oil, and Of the pulsations, not only pulsations with frequencies that are odd multiples of the predetermined frequency but also pulsations with frequencies that are even multiples are reduced.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. 1 is a sectional view of a pressure oil pulsation reducing device according to an embodiment of the present invention, FIG. 2 is a diagram for explaining a pulsation reducing effect of a pressure oil pulsation reducing device according to an embodiment of the present invention, and FIG. 4 is a front view showing a mode in which the pressure oil pulsation reducing device of the embodiment of the present invention is installed in a hydraulic working machine for construction work, FIG.
3 is a main part arrow view in the direction of arrow A in FIG. 3, and FIG. 5 is a plan view of the clamp in FIGS. 3 and 4. 1, FIG. 3, and FIG. 4, the parts denoted by the same reference numerals as those in FIG. 6 represent the same parts as those in FIG. 6, and therefore will not be described in detail to avoid duplication of description. As is apparent from FIG. 1, the pressure oil pulsation reducing device according to the embodiment of the present invention is similar to the conventional device in that the pulsation of the pressure oil generated by the hydraulic pump and propagating in the flow path of the pressure oil, in particular, the hydraulic pump. The side branch reduces the pulsation of the pressure oil propagating in the main pipe 2 connected to the discharge side of No. 1, and the basic configuration is shown in FIG. There is no difference with the reduction device.

Therefore, the characteristic technical contents of the pressure oil pulsation reducing device of the present embodiment will be described below with reference to FIGS. 1 and 2. The pressure oil pulsation reducing device according to the present embodiment includes a main side branch 3 connected to a main pipe 2 and a sub side branch 4 connected to the main side branch 3.
The side branch is configured by branching and connecting. Like the side branch 6, the main side branch 3 is provided with a passage 3b, and the main pipe 2
Main pipe 2 entering this passage 3b from the branch point P ₁
The branch point P ₁ so that the pulsation of the pressure oil inside will be reflected and returned.
The reflection surface 3a is formed by closing the end portion on the opposite side.
The sub-side branch 4 is provided with a passage 4b, and the pulsation of the pressure oil in the main pipe 2 entering the passage 4b from the branch point P ₂ with the main side branch 3 via the upstream side of the passage 3b. The reflection surface 4a is formed by closing the end on the side opposite to the branch point P ₂ so as to be reflected and returned. The length of the passage 3b of the main side branch 3, that is, the distance from the branch point P ₁ to the main pipe 2 to the reflecting surface 3a of the main side branch 3 is L ₁ , and the distance from the branch point P ₁ to the main pipe 2 to the main side. The reflective surface 4 of the sub-side branch 4 passes through the upstream side of the passage 3b of the branch 3 and the passage 4b of the sub-side branch 4.
The distance to reach a is L ₂ . In this embodiment, each of the main side branch 3 and the sub side branch 4 is formed by using a flexible and flexible hose formed by sandwiching a metal net between synthetic rubbers. The main side branch 3 and the sub side branch 4 are not limited to such flexible hoses, and may be steel pipes.

Since the pressure oil pulsation reducing device of this embodiment has such a configuration, the pulsation of the pressure oil discharged from the hydraulic pump 1 propagates into the main pipe 2 and then the main side branch 3 has the following structure. Propagate to the passage 3b. A part of the pulsation of the pressure oil propagated to the passage 3b passes through the passage 3b having the length L ₁ as it is and is reflected by the reflection surface 3a of the main side branch 3,
Again, it returns to the branch point P ₁ with the main pipe 2 through the passage 3b. The other part propagates from the branch point P ₂ with the main side branch 3 to the passage 4b of the sub side branch 4 via the upstream side of the main side branch 3, and then the reflection surface of the sub side branch 4. It is reflected at 4a and returns to the branch point P ₁ with the main pipe 2. That is, the other part returns to the branch portion with the main pipe 2 after passing through the passage having the distance L ₂ between the upstream side of the passage 3b of the main side branch 3 and the passage 4b of the sub side branch 4. It will be. As a result, at the branch point P ₁ with the main pipe 2, the pulsation reducing effect is obtained by the two kinds of side branches corresponding to the side branch having the passage length L _{1 and} the side branch having the passage length L _2. To be Therefore, if the lengths L ₁ and L ₂ of these passages are adjusted to appropriate values based on the equation (1), the pulsation of the pressure oil propagating in the main pipe 2 becomes
Not only the frequency of an odd multiple of the predetermined fundamental frequency but also the frequency of an even multiple can be reduced.

The pulsation reducing effect exhibited by the pressure oil pulsation reducing device according to the embodiment of the present invention, that is, the transmission loss is shown in a diagram in FIG. FIG. 2 shows a state in which two diagrams forming a mountain-shaped curve drawn in each region centered on each frequency of 1 and 2 times the fundamental frequency f in the formula (1) are overlapped. The vertices on the left side of these two mountain-like curves correspond to the pulsation reduction center frequency of 1 times the fundamental frequency f, and the vertices on the right side correspond to the pulsation reduction center frequency of 2 times the fundamental frequency f. To do. In addition, in the intermediate frequency region of the primary and secondary pulsation reduction center frequencies where the two diagrams forming the mountain-shaped curve overlap, the transmission loss of each of the frequencies 1 and 2 times the fundamental frequency f is Together with this, a transmission loss larger than that which can be expected when the pulsation at each frequency is reduced independently is obtained. Therefore, according to the present embodiment, the pulsation of the pressure oil propagating in the main pipe 2 can be reduced at frequencies of both an odd multiple and an even multiple of the predetermined fundamental frequency, and It is also possible to reduce the pulsation of the pressure oil having the frequency in the intermediate region. As a result, according to the present embodiment, unlike the conventional side-branch type pressure oil pulsation reducing device, it is possible to reduce the pressure oil pulsation in a wide frequency range, and the rotational speed of the hydraulic pump 1 changes. As a result, even if the frequency of the pulsation of the hydraulic pressure changes, it is possible to effectively reduce the pulsation of the pressure oil according to the change. As described above, the effect that the device of the present embodiment can uniformly reduce the pulsation of the pressure oil in a wide frequency range is that the fundamental frequency f
This is because it is possible to reduce the pulsation of the pressure oil having both the odd multiple and the even multiple of the frequency. By the way, the pulsation of hydraulic pressure at a frequency that is a problem in hydraulic work for construction work such as hydraulic excavators and hydraulic cranes is 200 to 100.
Although the frequency is 0 hertz, the frequency (fundamental frequency f) of the primary pressure oil pulsation to be reduced is set to 300 hertz, and the frequency of 600 hertz or 900 hertz, which is twice or three times that frequency, is set. By reducing the pulsation of the secondary and tertiary pressure oils, it is possible to reduce the pulsation of the pressure oils in almost all regions, which is a problem for the hydraulic work for construction work. The hydraulic pulsation device according to this embodiment includes the main pipe line 2
The main side branch 3 and the sub-side branch 4 share one branch position with respect to the main pipe 2 regardless of the function of branching multiple side branches. Since the number of pipelines can be kept to a necessary minimum, the flow of pressure oil flowing through the main pipe 2 is not disturbed. In the present embodiment, the number of sub side branches 4 branched into the main side branch 3 is 1
This is a book, but if the number of such sub-side branches 4 is increased as necessary, it is possible to more effectively reduce the pulsation of the pressure oil in the intermediate region of each frequency of the odd multiple and the even multiple of the fundamental frequency. You can Note that FIG. 2 only shows a diagram of each region centered on each frequency of 1 and 2 times the fundamental frequency f in the formula (1), but in reality, such a diagram shows the fundamental frequency f. It also appears in a frequency region that is an integral multiple of more than twice.

To be precise, the pulsation of the pressure oil reflected by the reflecting surface 3a of the main side branch 3 is not limited to directly returning to the branch point P ₁ with the main pipe 2 as described above, but is partially There may be a case where it propagates from the branch point P ₂ with the side branch 3 to the passage 4b of the sub side branch 4, is reflected by the reflection surface 4a of the sub side branch 4, and then returns to the branch point P ₁ with the main pipe 2. Reflection surface 3a of main side branch 3
Since the pulsation of the pressure oil that returns after being detoured at such a frequency is a frequency that is not directly useful for reducing the pulsation of the predetermined frequency that is the reduction target, the pulsation of the pressure oil that returns from the reflecting surface 3a is accordingly increased. The efficiency of use of sucrose decreases, and the pulsation reduction effect is impaired. However, when the auxiliary side branch 4 is branched to the main side branch 3, the closer the branch point P ₂ with the main side branch 3 is to the main pipe 2, the closer the branch point P ₂ to the main pipe 2 is, Pulsations are less likely to detour towards the sub-side branch 4 and such problems can be prevented. Therefore, the sub-side branch 4 is
It is desirable that the main side branch 3 be branched and provided at a position adjacent to the main pipe 2.

Finally, a mode in which the pressure oil pulsation reducing device of this embodiment is actually installed in a hydraulic working machine for construction work such as a hydraulic excavator and a hydraulic crane will be described with reference to FIGS. 3 to 5. In these figures, 7 is an engine for driving the hydraulic pump 1, 8 is a main frame installed on a traveling body of a hydraulic working machine for construction work in which the engine 7 is mounted, and 9 is the main frame 8. The attached flange 10 is a clamp for fixing the sub side branch 4 to the main side branch 3. The clamp 10 is shown in FIG.
As shown in FIG. 1, the pair of clamping pieces 10a and 10b and the bolt 1
0e and a nut 10f, and each holding piece 10a, 1
0b has a recess on the back surface so that a pair of insertion holes 10c and 10d for mounting the main side branch 3 and the sub side branch 4 are formed when these are stacked. Main side branch 3 and sub side branch 4
As described above, since each is composed of a flexible hose that can be bent, as shown in FIGS. 3 and 4,
The main side branch 3 can be bent toward the main frame 8 and attached to the flange 9 with bolts 11,
The sub side branch 4 can be bent and fixed by the clamp 10 along the main side branch 3 thus fixed to the main frame 8. Deputy side branch 4
Is fixed to the main side branch 3 with the clamp 10,
After sandwiching the side branches 3 and 4 with the sandwiching pieces 10a and 10b in such a manner that they are attached to the insertion holes 10c and 10d,
The sandwiching pieces 10a and 10b are fixed by a bolt 10e and a nut 10f so as to maintain the sandwiched state. When the sub side branch 4 is fixed to the main side branch 3, the clamp 10 may not be used and may be simply tied and fixed, and an appropriate fixing means can be used. As described above, in the pressure oil pulsation reducing device of this embodiment, the side branch is composed of the main side branch 3 and the sub side branch 4 provided by branching to the main side branch 3, and these side branches 3 and 4 are bendable. Since it is composed of a flexible hose, the main side branch 3 can be bent in a desired direction to be easily fixed to a proper place of the structure of the hydraulic working machine. The main side branch 3 can be easily fixed by being bent along the main side branch 3. Therefore, the pressure oil pulsation reducing device of this embodiment is convenient to install and can be installed in a compact state.

[0016]

As is apparent from the above description, the present invention employs the configuration described in claim 1 of the present invention, and therefore is not a conventional side branch type pressure oil pulsation reducing device. Different from the pulsation of the pressure oil propagating in the flow path of the pressure oil, not only the pulsation of a frequency that is an odd multiple of the predetermined frequency,
It is possible to provide a side-branch type pressure oil pulsation reducing device that can reduce pulsations of even-times frequency. Further, as described above, the pulsation of the pressure oil having both the odd number times and the even number times the predetermined frequency in the flow path of the pressure oil can be reduced. Since the pulsation of the pressure oil can be reduced and the pulsation of the pressure oil in a wide frequency range can be reduced, even if the frequency of the hydraulic pressure pulsation changes due to the change in the rotational speed of the hydraulic pump, It is possible to effectively reduce the pulsation of the pressure oil according to the change.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a pressure oil pulsation reducing device according to an embodiment of the present invention.

FIG. 2 is a diagram for explaining the pulsation reducing effect of the pressure oil pulsation reducing device of the embodiment of the present invention.

FIG. 3 is a front view showing a mode in which the pressure oil pulsation reducing device according to the embodiment of the present invention is installed in a hydraulic working machine for construction work.

FIG. 4 is a main part arrow view in the direction of arrow A in FIG.

5 is a plan view of the clamp in FIGS. 3 and 4. FIG.

FIG. 6 is a cross-sectional view of a conventional side branch type pressure oil pulsation reducing device.

FIG. 7 is a characteristic diagram for explaining a pulsation reducing effect of a conventional side-branch type pressure oil pulsation reducing device.

[Explanation of symbols]

 1 Hydraulic Pump 2 Main Pipe 3 Main Side Branch 3a Reflection Surface of Main Side Branch 3b Main Side Branch Passage 4 Sub Side Branch 4a Sub Side Branch Reflection Surface 4b Sub Side Branch Passage 5 Oil Tank 6 Side Branch 6a Side Branch Reflective surface 6b Side branch passage 7 Engine 8 Main frame 9 Flange 10 Clamp 10a Clamping piece 10b Clamping piece 10c Insertion hole 10d Insertion hole 10e Bolt 10f Nut

Claims (1)

[Claims] 1. A pressure oil pulsation reducing device for reducing pulsation of pressure oil generated by a hydraulic pump and propagating in the pressure oil flow passage, wherein a sub side is provided in a main side branch provided in a branch of the pressure oil flow passage. The branch is provided in a branched manner, the pulsation of the pressure oil propagating in the flow path of the pressure oil is propagated in the main side branch, and the pulsation of the pressure oil propagated in the main side branch is partially
In addition to reflecting on the reflecting surface of the main side branch, a part of it propagates into the sub side branch via the upstream side of the main side branch and is reflected on the reflecting surface, and each reflection of these main side branch and sub side branch By interfering the pulsation of the pressure oil reflected on the surface with the pulsation of the pressure oil propagating in the flow path of the pressure oil, the pressure oil of both the odd multiple and the even multiple of the predetermined frequency in the flow path of the pressure oil A pressure oil pulsation reducing device characterized in that the pulsation of the oil can be reduced.